MIC Green Book

A P P E N D I X
TECHNICAL ARTICLE REPRINTS
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TECHNICAL ARTICLE REPRINTS
Metal Improvement Company has on file a large collection of technical resources pertaining to metal
fatigue, corrosion and shot peening. Many of the reprints that are available are listed below. Please
contact your local service center or visit our website www.metalimprovement.com for other specific
information on shot peening and our other metal treatment services.
1. “Shot Peening of Engine Components”; J. L. Wandell, Metal Improvement Company, Paper Nº 97 ICE-45,
ASME 1997.
2. “The Application of Microstructural Fracture Mechanics to Various Metal Surface States”; K. J. Miller and
R. Akid, University of Sheffield, UK.
3. “Development of a Fracture Mechanics Methodology to Assess the Competing Mechanisms of Beneficial
Residual Stress and Detrimental Plastic Strain Due to Shot Peening”; M. K. Tufft, General Electric
Company, International Conference on Shot Peening 6, 1996.
4. “The Significance of Almen Intensity for the Generation of Shot Peening Residual Stresses”; R. Hertzog, W.
Zinn, B. Scholtes, Braunschweig University and H. Wohlfahrt, University GH Kassel, Germany.
5. “Computer Monitored Shot Peening: AMEC Writes New AMS Specification”; Impact: Review of Shot
Peening Technology, Metal Improvement Company, 1988.
6. “Three Dimensional Dynamic Finite Element Analysis of Shot-Peening Induced Residual Stresses”;
S. A. Meguid, G. Shagal and J. C. Stranart, University of Toronto, Canada, and J. Daly, Metal Improvement
Company.
7. “Instrumented Single Particle Impact Tests Using Production Shot: The Role of Velocity, Incidence Angle
and Shot Size on Impact Response, Induced Plastic Strain and Life Behavior”; M. K. Tufft, GE Aircraft
Engines, Cincinnati, OH., 1996.
8. “Predicting of the Residual Stress Field Created by Internal Peening of Nickel-Based Alloy Tubes”;
N. Hamdane, G. Inglebert and L. Castex, Ecole Nationale Supérieure d’Arts et Métiers, France.
9. “Three Innovations Advance the Science of Shot Peening”; J. S. Eckersley and T. J. Meister, Metal
Improvement Company, Technical Paper, AGMA, 1997.
10. “Tech Report: Surface Integrity”; Manufacturing Engineering, 1989.
11. “Optimization of Spring Performance Through Understanding and Application of Residual Stresses”; D.
Hornbach, Lambda Research Inc., E. Lanke, Wisconsin Coil Spring Inc., D. Breuer, Metal Improvement
Company.
12. “Plastically Deformed Depth in Shot Peened Magnesium Alloys”; W. T. Ebihara, U. S. Army, N. F. Fiore and
M. A. Angelini, University of Notre Dame.
13. “Improving the Fatigue Crack Resistance of 2024-T351 Aluminium Alloy by Shot Peening”; E. R. del Rios,
University of Sheffield, and M. Trooll and A. Levers, British Aerospace Airbus, England.
14. “Fatigue Crack Initiation and Propagation on Shot-Peened Surfaces in a 316 Stainless Steel”; E. R. del
Rios, A. Walley and M. T. Milan, University of Sheffield, England, and G. Hammersley, Metal Improvement
Company.
15. “Characterization of the Defect Depth Profile of Shot Peened Steels by Transmission Electron
Microscopy”; U. Martin, H. Oettel, Freiberg University of Mining and Technology, and I. Altenberger, B.
Scholtes and K. Kramer, University Gh Kassel, Germany.
16. “Essais Turbomeca Relatifs au Grenaillage de l’Alliage Base Titane TA6V”; A. Bertoli, Turbomeca, France.
17. “Effect of Microstrains and Particle Size on the Fatigue Properties of Steel”; W. P. Evans and J. F. Millan,
The Shot Peener, Vol. II, Issue 4.
18. “Overcoming Detrimental Residual Stresses in Titanium by the Shot Peening Process”; T. J. Meister,
Metal Improvement Company.
19. “The Effect of Shot Peening on Calculated Hydrogen Surface Coverage of AISI 4130 Steel”;
I. Chattoraj, National Metallurgical Laboratory, Jamshedspur, India, and B. E. Wilde, The Ohio State
University, Columbus, OH. Pergamon Press plc, 1992.
20. “Effect of Shot Peening on Delayed Fracture of Carburized Steel”; N. Hasegawa, Gifu University, and Y.
Watanabe, Toyo Seiko Co. Ltd., Japan.
www.metalimprovement.com